MHD Publications

Recent MHD Publications (downloadable, or linked to article)

1. A. J. Meir and P. G. Schmidt; Analysis and Finite-Element Simulation of MHD Flows, with an Application to Seawater Drag Reduction, Proceedings of the International Symposium on Seawater Drag Reduction, Newport, July 22 - 23, 1998, 401-406.
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2. A. J. Meir and P. G. Schmidt; Analysis and Finite-Element Simulation of MHD Flows, with an Application to Liquid Metal Processing, in: ``Fluid Flow Phenomena in Metals Processing'' (N. El-Kaddah et al., eds.), Proceedings of a Symposium at the 1999 Annual Meeting of the Minerals, Metals and Materials Society, February 28 - March 4, San Diego, 561-569.
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3. A. J. Meir and P. G. Schmidt; Analysis and Numerical Approximation of a Stationary MHD Flow Problem with Nonideal Boundary, SIAM J. Num. Anal., 36 4 (1999) 1304-1332.

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4. P. G. Schmidt; A Galerkin method for time-dependent MHD flow with nonideal boundaries, Communications in Applied Analysis, 3 (1999) 383-398.
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5. S. I. Bakhtiyarov, R. A. Overfelt, A. J. Meir, and P. G. Schmidt; Velocity, Potential, and Temperature Distributions in Molten Metals During Electromagnetic Stirring, Part I: Experimental measurements , in: Proceedings of a Symposium at the 1999 ASME International Mechanical Engineering Congress and Exhibition, Nashville, November 14-19, 1999.



6. A. J. Meir, P. G. Schmidt, S. I. Bakhtiyarov, and R. A. Overfelt; Velocity, Potential, and Temperature Distributions in Molten Metals During Electromagnetic Stirring, Part II: Numerical simulations , in: Proceedings of a Symposium at the 1999 ASME International Mechanical Engineering Congress and Exhibition, Nashville, November 14-19, 1999.
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More MHD Publications

1. M. D. Gunzburger, A. J. Meir, and J. S. Peterson; On the Existence, Uniqueness, and Finite Element Approximation of Solutions of the Equations of Stationary, Incompressible MHD, Los Alamos Report LA-UR-2708, Los Alamos National Laboratory, Los Alamos, NM, 1989.



2. M. D. Gunzburger, A. J. Meir, and J. S. Peterson; On the Existence, Uniqueness, and Finite Element Approximation of Solutions of the Equations of Stationary, Incompressible Magnetohydrodynamics, Math. Comp. 56 194 (1991) 523-563.



3. A. J. Meir, and L. S. Hou; On Some Control Problems Related to MHD Flows, in Proceedings of the Seventh International Conference on Numerical Methods in Laminar and Turbulent Flow, C. Taylor, J. H. Chin and G. M. Homsy eds., Pineridge Press, Swansea, United Kingdom, 1991, 1680-1689.



4. A. J. Meir; The Equations of Stationary, Incompressible Magnetohydrodynamics with Mixed Boundary Conditions, Computers Math. Applic. 25 12 (1993) 13-29.



5. A. J. Meir; Finite Element Analysis of Magnetohydrodynamic Pipe Flow, Appl. Math. Comput. 57 2&3 (1993) 177-196.



6. A. J. Meir, and L. S. Hou; Analysis of Some Boundary Optimal Control Problems for the MHD Equations with Mixed Boundary Conditions, Research Report No. 93-01, Department of Mathematics and Statistics, Simon Fraser University, 1993.



7. A. J. Meir; Thermally Coupled Magnetohydrodynamics Flow, Appl. Math. Comput. 65 1-3 (1994) 79-94.



8. A. J. Meir, and P. G. Schmidt; A Velocity-Current Formulation for Stationary MHD Flow, Appl. Math. Comput. 65 1-3 (1994) 95-109.



9. A. J. Meir, and L. S. Hou; Boundary Optimal Control of MHD Flows, Appl. Math. Optim. 32 (1995) 143-162.



10. A. J. Meir; Thermally Coupled Stationary, Incompressible MHD Flow; Existence, Uniqueness and Finite Element Approximation, Numerical Methods Partial Differential Equations 11 (1995) 311-337.



11. A. J. Meir, and P. G. Schmidt; Variational Methods for Stationary MHD Flow Under Natural Interface Conditions, Nonlinear Anal. 26 4 (1996) 659-689.



12. W. J.Layton, A. J. Meir, and P. G. Schmidt; A Two-Level Discretization Method for the Stationary MHD Equations, Electronic Transactions on Numerical Analysis 6 (1997) 198-210.